A precise extragalactic test of General Relativity

David Bacon; Karen L. Masters; Kazuya Koyama; Kyle B. Westfall; Lindsay J. Oldham; Matthew W. Auger; Portsmouth); Remco van den Bosch; Robert C. Nichol; Russell J. Smith

arxiv: 1806.08300 · v1 · pith:PTDJRS25new · submitted 2018-06-21 · 🌌 astro-ph.CO · astro-ph.GA· gr-qc

A precise extragalactic test of General Relativity

Thomas E. Collett (ICG , Portsmouth) , Lindsay J. Oldham , Russell J. Smith , Matthew W. Auger , Kyle B. Westfall , David Bacon , Robert C. Nichol

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Karen L. Masters Kazuya Koyama Remco van den Bosch

This is my paper

classification 🌌 astro-ph.CO astro-ph.GAgr-qc

keywords gravitygeneralrelativityextragalacticgammaobservedprovidesstrong

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Einstein's theory of gravity, General Relativity, has been precisely tested on Solar System scales, but the long-range nature of gravity is still poorly constrained. The nearby strong gravitational lens, ESO 325-G004, provides a laboratory to probe the weak-field regime of gravity and measure the spatial curvature generated per unit mass, $\gamma$. By reconstructing the observed light profile of the lensed arcs and the observed spatially resolved stellar kinematics with a single self-consistent model, we conclude that $\gamma = 0.97 \pm 0.09$ at 68% confidence. Our result is consistent with the prediction of 1 from General Relativity and provides a strong extragalactic constraint on the weak-field metric of gravity.

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A precise extragalactic test of General Relativity

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